RU2060339C1 - Electromechanical lock - Google Patents

Abstract

FIELD: lock production. SUBSTANCE: slot is made on working end of the first locking member. Holes are originated on free end of the first locking device. The first locking member is related to spring loaded lever through revolution body installed in the case. The body enables to interact with the lever, and to lower alternately in the holes of the first locking member for stopping. Electron circuit is used to control electromagnet. EFFECT: higher reliability. 3 cl, 6 dwg

Description

 The invention relates to hardware, in particular to locks controlled by a low voltage electromagnet, which is mainly included in a combinatorial control circuit with an autonomous power source (lithium, alkaline, etc.).

 There are many electromagnetic locks, including those with a rotary latch (German patent N 4031077, CL E 05 B 47/06, 1992).

 In particular, an electromechanical lock is known, including a housing placed in a first lockable element and comprising a first locking element, a valve that is movable relative to the housing using a lever system consisting of a lever, a spring and a link element of the lever and the valve, and a locking system including lever system, an electromagnet with an anchor, and the working end of the valve in the locked state of the lock is placed in the second lockable element (UK patent 2230550, CL E 05 B 47/06, 1990).

 A relatively simple electromechanical lock is proposed, having a first locking element, a movable latch (bolt), an earring (a link element of a lever and a latch) connected to a rotary spring-loaded lever. The latter, turning against the action of the spring through the earring, shifts the valve to the locked position. The rotary lever is locked in turn by an anchor with another lever system connected to an electromagnet that holds the lock in a locked (locked) state.

 To keep such a lock in the closed position requires significant energy consumption. Nevertheless, the main disadvantage of both electromechanical crossbar and rotary locks is the unreliable connection of the first and second lockable elements.

 So, for example, a valve (bolt), which is placed in the housing in the first lockable element, is engaged with the box, which is located in the second lockable element. The valve can be in the closed position, and by squeezing the box in the opposite direction from the lock, you can release the valve and open the object.

 The task of the invention was to create an electromechanical lock that would not be inferior to the corresponding locks in its power and coupling characteristics, and at the same time, which would require minimal energy consumption, which would allow using small-sized long-life batteries as a power source.

 The problem is solved in that a slot is made at the working end of the first locking element, holes are made at the free end of the first locking element, the connection of the first locking element with a spring-loaded lever is made in the form of a rotation body (ball) installed in the housing, which is arranged to interact with the lever and alternately sinking into the wells of the first locking element for fixation, the second locking element is made in cross section of an elliptical shape to allow its placement in The Lake first locking element for locking, wherein the first locking member is pivotally mounted in a plane perpendicular to the pivoting plane of the lever, wherein the control electromagnet carried by electronic circuit included in the circuit with the code located on the handle keyboard.

 The lock has a latch pivotally mounted on the housing to press the anchor to the electromagnet, to translate the lock in open day mode.

 The handle is curved to allow cavity formation during installation, and the keyboard is located on the inner surface of the handle to ensure the security of the dialed code, while the handle carries voltage drop indicators, a call button and terminals for connecting external power.

 In FIG. 1 shows a cross-sectional view of an electromechanical lock; in FIG. 2 one of the executions of the handle; in FIG. 3 the same in cross section; in FIG. 4 other implementation of the handle; in FIG. 5 is the same in cross section; in FIG. 6 various positions of the first locking element in operation.

The electromechanical lock has a metal case 1 (Fig. 1), in which there are two parallel shelves 2, between which the first locking element 3 is located, the last is fixed through its through hole and holes in the parallel shelves with a rod to the axis 4, which allows the first locking element 3 swing relative to axis 4 at an angle of ± 50 ^about . In the back of the first locking element 3 there is a hole 5, into which the ball rotating body 6 is located, which is located in the opening of the housing, the ball 6, in turn, is pressed by means of the spring 7 by the pivoting lever 8, swinging on an axis passing through both shelves.

 The free end of the lever 8 is blocked by the swing limiter 10 swinging on the axis 9, to which the armature 11 of the electromagnet 12 is riveted. The spring 13 pushes the limiter 10 of the lever 8 travel.

Retainer 14 serves as a lever for the mechanical pressing of the armature 11 to the electromagnet 12. By turning the retainer 14 at 90 ^on the outside of the castle allow you to set the lock in the "Open Day", when you do not need deadlocks.

 The first locking element 3, located on the movable door A, has a slot 26 at the working end. The second locking element 15, mounted on the frame B, is made in the form of a rod with an elliptical cross section 16. In the closed position, the latter is inside the slot 26 of the first locking element 3 , in the hole 5 of which the ball 6 enters 1/3 of its diameter, pressed by the lever 8, providing reliable adhesion of the first 3 and second 15 locking elements.

The lever 8 is located on the axis 17, there are also smaller holes 18, spaced at an angle of 50 ^about from the hole 5, there are mounting holes 19.

 The electromagnet 12 is controlled by an electronic circuit (not shown) included in the code circuit (not shown) with the keyboard 21 located on the handle 20.

 The handle 20 is made curved (volumetric form) (Fig. 2-5) to provide the possibility of the formation of a cavity when it is installed on the building structure, and the keyboard 21 is located on the inner surface of the handle 20 to ensure the secrecy of the dialed code, the corresponding inscriptions are located on its outer surface.

 On the handle 20 are indicators 22 voltage drop ("input is enabled"), a call button 23 (bell), terminals 24 for connecting external power and channel 25 for accommodating the connecting cable.

 The electromechanical lock operates as follows.

To disengage the first locking element 3 with the second locking element 15, it is necessary to apply voltage to the electromagnet 12, which through the armature 11 will pull the limiter 10, freeing the way to the pivoting lever 8. From the force of the hand applied to open the door A, the first locking element 3, leaning onto the second locking element 15 attached to the frame B, it will rotate on the axis 4, pushing the ball 6 out of the hole 5 until the first 3 and second 15 locking elements are completely disengaged. Fixation of the opening of the first closure element 3 at the expense of smaller holes 18, which is spaced by an angle of ^about 50 from the hole 5.

 The lock is closed in the reverse order. Due to the energy applied to close the door, and the springs 7, 13, the lock is easily transferred to its original position without turning on the electromagnet 12.

 The constructive solution of the first locking element 3 and the housing 1 of the lock with parallel shelves 2 allows you to install the lock on the door of any type of opening (on itself, on itself and on retractable objects).

 The holes 18, located on both sides of the hole 5, allow you to fix the first locking element 3 in the opening mode in any direction of movement of the object (door, drawer, etc.).

 Advantageously, the lock is secured in an overhead way through the mounting holes 19 to the first lockable element (door, drawer, etc.), and the second locking element 15 to the frame B.

 It is possible to install the housing 1 of the lock on the frame, and the second locking element 15 on the movable object (door, box, etc.) without any structural changes.

 The invention relates to hardware and may find application in the manufacture of metal products, as well as in furniture and carpentry.

Claims (3)

 1. An electromechanical lock containing a first locking element installed in the housing, connected to a spring-loaded lever, arranged to interact with a spring-loaded and pivotally mounted rotation limiter connected to an armature of a controlled electromagnet, and a second locking element for fixing the working end of the first locking element therein characterized in that at the working end of the first locking element a slot is made, at the free end of the hole, the connection of the first locking element with a spring-loaded m the lever is made in the form of a rotation body installed in the housing, located with the possibility of interaction with the lever and alternately dropping into the wells of the first locking element for fixing, the second locking element is made in the cross section of an elliptical shape to allow it to be placed in the slot of the first locking element when locking, moreover, the first locking element is mounted to rotate in a plane perpendicular to the plane of rotation of the lever, while controlling the electromagnet EHO by electronic circuit included in the circuit with the code located on the handle keyboard.  2. The lock according to claim 1, characterized in that it has a latch pivotally mounted on the housing for pressing the anchor to the electromagnet.  3. The lock according to claims 1 and 2, characterized in that the handle is curved to allow cavity formation during installation, and the keyboard is located on the inner surface of the handle to ensure the security of the dialed code, while the handle carries voltage drop indicators, a call button and terminals to connect external power.

Images